This physics worksheet involves calculating coefficients of static and kinetic friction based on information provided about forces acting on objects at rest and in motion on various surfaces. It also asks students to consider situations where low or high coefficients of static and kinetic friction would be preferable.
Universal Law of Gravitation | Physics F5 KSSMNurul Fadhilah
3.1 Newton’s Universal Law of Gravitation
3.1.1 Explain Newton’s Universal Law of Gravitation:
F = 퐺푚1푚2푟2
3.1.2 Solve problems involving Newton’s Universal Law of Gravitation for:
(i) two static objects on the Earth
(ii) objects on the Earth’s surface
(iii) Earth and satellites
(iv) Earth and Sun
the relation between force and motion id described in Newtons three laws of motion. These laws are very simple statements and enable us to describe the future (or past) motion of body if we know the forces acting on it.
basic principles of electrical machines,faraday's laws of electro magnetic induction principle.dynamically induced Emf statically induced emf applications to electrical machines
Universal Law of Gravitation | Physics F5 KSSMNurul Fadhilah
3.1 Newton’s Universal Law of Gravitation
3.1.1 Explain Newton’s Universal Law of Gravitation:
F = 퐺푚1푚2푟2
3.1.2 Solve problems involving Newton’s Universal Law of Gravitation for:
(i) two static objects on the Earth
(ii) objects on the Earth’s surface
(iii) Earth and satellites
(iv) Earth and Sun
the relation between force and motion id described in Newtons three laws of motion. These laws are very simple statements and enable us to describe the future (or past) motion of body if we know the forces acting on it.
basic principles of electrical machines,faraday's laws of electro magnetic induction principle.dynamically induced Emf statically induced emf applications to electrical machines
Grade 10 eletrostatics unit, CAPS- aligned. The unit includes calculation of charge on two isolated spheres, and quantisation of charge. Text taken/adapted form Andries Olivier's Textbook and Workbook.
1. B. Dickie
Physics Worksheet (Friction)
1. A 25 kg block is initially at rest on a rough, horizontal surface. A horizontal force of 75 N is required to set the block
in motion, and a 60 N force is required to keep it in motion at a constant speed once it is moving. What are the
coefficients of static and dynamic friction?
2. The coefficient of static friction between a 10 kg object and the floor is 0.50. What is the maximum force that can be
applied on the object before it starts moving?
3. A 100 kg object moving at 20 m/s comes to a stop over a distance of 40 m. What is the coefficient of dynamic friction
between the object and the ground?
4. A hockey puck is hit on a frozen lake and starts moving with a velocity of 12.0 m/s. 5.0 seconds later, the velocity of
the puck is 6.0 m/s. What is the coefficient of friction between the puck and the ice?
5. A 100 kg object is at rest on a horizontal surface. The coefficient of static friction between the object and the surface is
0.60, while the coefficient of dynamic friction between the object and the surface is 0.45.
a. If a force of 400 N for 5.0 seconds, what will be the force of friction acting on the object?
b. If a force of 650 N is applied for 5.0 seconds, what will be the force of friction acting on the object?
c. How much applied force is required for the object to start moving?
6. Provide one situation where you would want to have a low coefficient of static friction and one situation where you
would want to have a high coefficient of static friction.
7. Provide one situation where you would want to have a low coefficient of dynamic friction and one situation where you
would want to have a high coefficient of dynamic friction.